过电位
催化作用
化学
电化学
化学工程
电催化剂
碳纤维
电极
钌
纤维
纳米技术
复合材料
材料科学
复合数
有机化学
物理化学
工程类
作者
Seok‐Jin Kim,Ga-Hyeun Lee,Jung‐Eun Lee,Javeed Mahmood,Gao‐Feng Han,Inkyung Baek,Changbeom Jeon,Minjung Han,Hwakyung Jeong,Cafer T. Yavuz,Han Gi Chae,Jong‐Beom Baek
摘要
Metal-carbon composites are extensively utilized as electrochemical catalysts but face critical challenges in mass production and stability. We report a scalable manufacturing process for ruthenium surface-embedded fabric electrocatalysts (Ru-SFECs) via conventional fiber/fabric manufacturing. Ru-SFECs have excellent catalytic activity and stability toward the hydrogen evolution reaction, exhibiting a low overpotential of 11.9 mV at a current density of 10 mA cm-2 in an alkaline solution (1.0 M aq KOH solution) with only a slight overpotential increment (6.5%) after 10,000 cycles, whereas under identical conditions, that of commercial Pt/C increases 6-fold (from 1.3 to 7.8 mV). Using semipilot-scale equipment, a protocol is optimized for fabricating continuous self-supported electrocatalytic electrodes. Tailoring the fiber processing parameters (tension and temperature) can optimize the structural development, thereby achieving good catalytic performance and mechanical integrity. These findings underscore the significance of self-supporting catalysts, offering a general framework for stable, binder-free electrocatalytic electrode design.
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